Distributed processing on the basis of parallel and antagonistic pathways simulation of the femur-tibia control system in the stick insect |
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Authors: | A E Sauer R B Driesang A Büschges U Bässler A Borst |
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Institution: | (1) FB Biologie, Universität Kaiserslautern, 67653 Kaiserslautern, Germany;(2) Institut für Physiologie, Leipziger Strae 44, 39120 Magdeburg, Germany;(3) FB Biologie, Universität Kaiserslautern, 67653 Kaiserslautern, Germany |
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Abstract: | In inactive stick insects, sensory information from the femoral chordotonal organ (fCO) about position and movement of the femur-tibia joint is transferred via local nonspiking interneurons onto extensor and flexor tibiae motoneurons. Information is processed by the interaction of antagonistic parallel pathways at two levels: (1) at the input side of the nonspiking interneurons and (2) at the input side of the motoneurons. We tested by a combination of physiological experiments and computer simulation whether the known network topology and the properties of its elements are sufficient to explain the generation of the motor output in response to passive joint movements, that is resistance reflexes. In reinvestigating the quantitative characteristics of interneuronal pathways we identified 10 distinct types of nonspiking interneurons. Synaptic inputs from fCO afferents onto these interneurons are direct excitatory and indirect inhibitory. These connections were investigated with respect to position and velocity signals from the fCO. The results were introduced in the network simulation. The motor output of the simulation has the same characteristics as the real system, even when particular types of interneurons were removed in the simulation and the real system. |
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Keywords: | reflex pathway neuronal network simulation parliamentary principle neural basis of behavior |
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